2019: d24: ex2: add solution

2024-12-27 15:41:06 -05:00 · 2024-12-27 15:41:06 -05:00 · 22ad878348
parent b53a813f01
commit 22ad878348
1 changed files with 97 additions and 0 deletions
--- a/2019/d24/ex2/ex2.py
+++ b/2019/d24/ex2/ex2.py
@ -0,0 +1,97 @@
+#!/usr/bin/env python
+
+import itertools
+import sys
+from collections.abc import Iterator
+from typing import NamedTuple
+
+
+class Point(NamedTuple):
+    x: int
+    y: int
+
+    def neighbours(self) -> Iterator["Point"]:
+        for dx, dy in (
+            (-1, 0),
+            (1, 0),
+            (0, -1),
+            (0, 1),
+        ):
+            yield Point(self.x + dx, self.y + dy)
+
+
+DIMS = 5
+
+INNER_NEIGHBOURS = {
+    Point(1, 2): {Point(0, y) for y in range(DIMS)},
+    Point(3, 2): {Point(DIMS - 1, y) for y in range(DIMS)},
+    Point(2, 1): {Point(x, 0) for x in range(DIMS)},
+    Point(2, 3): {Point(x, DIMS - 1) for x in range(DIMS)},
+}
+
+X_OUTER_NEIGHBOUR = {
+    p: n for n in (Point(1, 2), Point(3, 2)) for p in INNER_NEIGHBOURS[n]
+}
+Y_OUTER_NEIGHBOUR = {
+    p: n for n in (Point(2, 1), Point(2, 3)) for p in INNER_NEIGHBOURS[n]
+}
+
+
+def solve(input: str) -> int:
+    def parse(input: list[str]) -> set[tuple[Point, int]]:
+        return {
+            (Point(x, y), 0)
+            for x, line in enumerate(input)
+            for y, c in enumerate(line)
+            if c == "#"
+        }
+
+    def grid_neighbours(p: Point, level: int) -> set[tuple[Point, int]]:
+        assert p != Point(2, 2)  # Sanity check
+
+        res: set[tuple[Point, int]] = set()
+        for n in p.neighbours():
+            if n == Point(2, 2):
+                res |= {(n, level + 1) for n in INNER_NEIGHBOURS[p]}
+            elif n.x in (-1, DIMS):
+                res.add((X_OUTER_NEIGHBOUR[p], level - 1))
+            elif n.y in (-1, DIMS):
+                res.add((Y_OUTER_NEIGHBOUR[p], level - 1))
+            else:
+                res.add((n, level))
+
+        return res
+
+    def step(bugs: set[tuple[Point, int]]) -> set[tuple[Point, int]]:
+        res: set[tuple[Point, int]] = set()
+        min_level, max_level = (
+            min(level for _, level in bugs),
+            max(level for _, level in bugs),
+        )
+        for level in range(min_level - 1, max_level + 1 + 1):
+            for p in map(Point._make, itertools.product(range(DIMS), range(DIMS))):
+                if p == Point(2, 2):
+                    continue
+                neighbours = len(grid_neighbours(p, level) & bugs)
+                # Bug dies if not exactly one neighbour
+                if (p, level) in bugs and neighbours != 1:
+                    continue
+                # An empty space stays empty if it doesn't have 1 or 2 neighbours
+                if (p, level) not in bugs and neighbours not in (1, 2):
+                    continue
+                res.add((p, level))
+        return res
+
+    bugs = parse(input.splitlines())
+    for _ in range(200):
+        bugs = step(bugs)
+    return len(bugs)
+
+
+def main() -> None:
+    input = sys.stdin.read()
+    print(solve(input))
+
+
+if __name__ == "__main__":
+    main()